#include "stdafx.h"
#include "Tracer.h"
#include "xrEngine/render.h"

#include "Include/xrRender/UIShader.h"
#include "Include/xrRender/UIRender.h"        

const u32	MAX_TRACERS	= (1024*5);
const float TRACER_SIZE = 0.13f;

CTracer::CTracer()
{
	LPCSTR sh_name		= pSettings->r_string("bullet_manager", "tracer_shader");
	LPCSTR tx_name		= pSettings->r_string("bullet_manager", "tracer_texture");
	m_circle_size_k		= pSettings->r_float("bullet_manager", "fire_circle_k");

	sh_Tracer->create	(sh_name, tx_name);
	
	m_aColors.clear		();
	string64			LineName;

	for (u8 i=0; i<255; i++)
	{
		sprintf_s						(LineName, "color_%d", i);
		if (!pSettings->line_exist("tracers_color_table", LineName)) 
			break;
		u32 clr = pSettings->r_color	("tracers_color_table", LineName);

		m_aColors.push_back				(clr);
	};
}

IC void FillSprite_Circle      (const Fvector& pos, const float width, const float length, u32 color)
{
	const Fvector& T        = Device.vCameraTop;
	const Fvector& R        = Device.vCameraRight;
	Fvector Vr, Vt;
	Vr.x            = R.x*width;
	Vr.y            = R.y*width;
	Vr.z            = R.z*width;
	Vt.x            = T.x*length;
	Vt.y            = T.y*length;
	Vt.z            = T.z*length;

	Fvector         a,b,c,d;
	a.sub           (Vt,Vr);
	b.add           (Vt,Vr);
	c.invert        (a);
	d.invert        (b);

	Fbox2			t_crcl;
	t_crcl.min.set	(32.0f/64.0f,	0.0f);
	t_crcl.max.set	(1.0f,			32.0f/512.0f);

	//	TODO: return code back to indexed rendering since we use quads
	//	Tri 1
	UIRender->PushPoint(d.x+pos.x, d.y+pos.y, d.z+pos.z, color, t_crcl.min.x, t_crcl.max.y);		// 0.f,1.f);
	UIRender->PushPoint(a.x+pos.x, a.y+pos.y, a.z+pos.z, color, t_crcl.min.x, t_crcl.min.y);		// 0.f,0.f);
	UIRender->PushPoint(c.x+pos.x, c.y+pos.y, c.z+pos.z, color, t_crcl.max.x, t_crcl.max.y);		// 1.f,1.f);
	//	Tri 2																					
	UIRender->PushPoint(c.x+pos.x, c.y+pos.y, c.z+pos.z, color, t_crcl.max.x, t_crcl.max.y);	// 1.f,1.f);
	UIRender->PushPoint(a.x+pos.x, a.y+pos.y, a.z+pos.z, color, t_crcl.min.x, t_crcl.min.y);	// 0.f,0.f);
	UIRender->PushPoint(b.x+pos.x, b.y+pos.y, b.z+pos.z, color, t_crcl.max.x, t_crcl.min.y);	// 1.f,0.f);

	//pv->set         (d.x+pos.x,d.y+pos.y,d.z+pos.z, color, 0.f,1.f);        pv++;
	//pv->set         (a.x+pos.x,a.y+pos.y,a.z+pos.z, color, 0.f,0.f);        pv++;
	//pv->set         (c.x+pos.x,c.y+pos.y,c.z+pos.z, color, 1.f,1.f);        pv++;
	//pv->set         (b.x+pos.x,b.y+pos.y,b.z+pos.z, color, 1.f,0.f);        pv++;
}

IC void FillSprite_Line	(const Fvector& pos, const Fvector& dir, const float width, const float length, u32 color)
{
    const Fvector& T	= dir;
    Fvector				R;      
	R.crossproduct		(T,Device.vCameraDirection).normalize_safe();
	
    Fvector			Vr, Vt;
    Vr.x            = R.x*width;
    Vr.y            = R.y*width;
    Vr.z            = R.z*width;

    Vt.x            = T.x*length;
    Vt.y            = T.y*length;
    Vt.z            = T.z*length;

    Fvector         a,b,c,d;
    a.sub           (Vt,Vr);
    b.add           (Vt,Vr);
    c.invert        (a);
    d.invert        (b);


	Fbox2				t_tracer;
	t_tracer.min.set	(0.0f,			1.0f);
	t_tracer.max.set	(16.0f/64.0f,	0.0f);

	//	TODO: return code back to indexed rendering since we use quads
	//	Tri 1
	UIRender->PushPoint(d.x+pos.x, d.y+pos.y, d.z+pos.z, color, t_tracer.min.x, t_tracer.max.y);
	UIRender->PushPoint(a.x+pos.x, a.y+pos.y, a.z+pos.z, color, t_tracer.min.x, t_tracer.min.y);
	UIRender->PushPoint(c.x+pos.x, c.y+pos.y, c.z+pos.z, color, t_tracer.max.x, t_tracer.max.y);
	//	Tri 2																					
	UIRender->PushPoint(c.x+pos.x, c.y+pos.y, c.z+pos.z, color, t_tracer.max.x, t_tracer.max.y);
	UIRender->PushPoint(a.x+pos.x, a.y+pos.y, a.z+pos.z, color, t_tracer.min.x, t_tracer.min.y);
	UIRender->PushPoint(b.x+pos.x, b.y+pos.y, b.z+pos.z, color, t_tracer.max.x, t_tracer.min.y);


    //pv->set         (d.x+pos.x,d.y+pos.y,d.z+pos.z, color, 0.f,1.f);        pv++;
    //pv->set         (a.x+pos.x,a.y+pos.y,a.z+pos.z, color, 0.f,0.5f);        pv++;
    //pv->set         (c.x+pos.x,c.y+pos.y,c.z+pos.z, color, 1.f,1.f);        pv++;
    //pv->set         (b.x+pos.x,b.y+pos.y,b.z+pos.z, color, 1.f,0.5f);        pv++;
}

void  CTracer::Render	(const Fvector& pos, 
						 const Fvector& center, 
						 const Fvector& dir, 
						 float length, 
						 float width, 
						 u8 colorID,
						 float speed,
						 bool bActor)
{
	if (::Render->ViewBase.testSphere_dirty((Fvector&)center,length*.5f) )
	{
		R_ASSERT (colorID < m_aColors.size() );
		
		if(bActor)
		{
			float k_speed		= speed/1000.0f;
//			float f_distance	= Device.vCameraPosition.distance_to(pos);

			FillSprite_Circle	(pos,	k_speed*width*m_circle_size_k,	k_speed*width*m_circle_size_k, m_aColors[colorID]);
		}

		FillSprite_Line			(center,	dir,		width*.5f,	length*.5f, m_aColors[colorID]);
	}
}